IonosphericModel.java
/* Copyright 2002-2022 CS GROUP
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* this work for additional information regarding copyright ownership.
* CS licenses this file to You under the Apache License, Version 2.0
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*
* http://www.apache.org/licenses/LICENSE-2.0
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* Unless required by applicable law or agreed to in writing, software
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package org.orekit.models.earth.ionosphere;
import java.io.Serializable;
import java.util.List;
import org.hipparchus.Field;
import org.hipparchus.CalculusFieldElement;
import org.hipparchus.util.MathArrays;
import org.orekit.frames.TopocentricFrame;
import org.orekit.propagation.FieldSpacecraftState;
import org.orekit.propagation.SpacecraftState;
import org.orekit.utils.ParameterDriver;
/** Defines a ionospheric model, used to calculate the path delay imposed to
* electro-magnetic signals between an orbital satellite and a ground station.
* <p>
* Since 10.0, this interface can be used for models that aspire to estimate
* ionospheric parameters.
* </p>
*
* @author Joris Olympio
* @author Bryan Cazabonne
* @since 7.1
*/
public interface IonosphericModel extends Serializable {
/**
* Calculates the ionospheric path delay for the signal path from a ground
* station to a satellite.
* <p>
* This method is intended to be used for orbit determination issues.
* In that respect, if the elevation is below 0° the path delay will be equal to zero.
* </p><p>
* For individual use of the ionospheric model (i.e. not for orbit determination), another
* method signature can be implemented to compute the path delay for any elevation angle.
* </p>
* @param state spacecraft state
* @param baseFrame base frame associated with the station
* @param frequency frequency of the signal in Hz
* @param parameters ionospheric model parameters
* @return the path delay due to the ionosphere in m
*/
double pathDelay(SpacecraftState state, TopocentricFrame baseFrame, double frequency, double[] parameters);
/**
* Calculates the ionospheric path delay for the signal path from a ground
* station to a satellite.
* <p>
* This method is intended to be used for orbit determination issues.
* In that respect, if the elevation is below 0° the path delay will be equal to zero.
* </p><p>
* For individual use of the ionospheric model (i.e. not for orbit determination), another
* method signature can be implemented to compute the path delay for any elevation angle.
* </p>
* @param <T> type of the elements
* @param state spacecraft state
* @param baseFrame base frame associated with the station
* @param frequency frequency of the signal in Hz
* @param parameters ionospheric model parameters
* @return the path delay due to the ionosphere in m
*/
<T extends CalculusFieldElement<T>> T pathDelay(FieldSpacecraftState<T> state, TopocentricFrame baseFrame, double frequency, T[] parameters);
/** Get the drivers for ionospheric model parameters.
* @return drivers for ionospheric model parameters
*/
List<ParameterDriver> getParametersDrivers();
/** Get ionospheric model parameters.
* @return ionospheric model parameters
*/
default double[] getParameters() {
final List<ParameterDriver> drivers = getParametersDrivers();
final double[] parameters = new double[drivers.size()];
for (int i = 0; i < drivers.size(); ++i) {
parameters[i] = drivers.get(i).getValue();
}
return parameters;
}
/** Get ionospheric model parameters.
* @param field field to which the elements belong
* @param <T> type of the elements
* @return ionospheric model parameters
*/
default <T extends CalculusFieldElement<T>> T[] getParameters(final Field<T> field) {
final List<ParameterDriver> drivers = getParametersDrivers();
final T[] parameters = MathArrays.buildArray(field, drivers.size());
for (int i = 0; i < drivers.size(); ++i) {
parameters[i] = field.getZero().add(drivers.get(i).getValue());
}
return parameters;
}
}